Electrical component and method for manufacturing an electronic component

1. An electrical component comprising, a DC link capacitor and an EMC filter, wherein the electrical component comprises an input port and an output port, wherein the EMC filter comprises a first filter stage and a second filter stage, wherein the first filter stage is arranged between the input port and the DC link capacitor and the second filter stage is arranged between the output port and the DC link capacitor, wherein the first filter stage comprises an x-capacitor connected between two signal lines, and wherein the x-capacitor has a capacitance that is less than a tenth of a capacitance of the DC link capacitor.

2. The electrical component according to claim 1, wherein the EMC filter comprises a further filter stage.

3. The electrical component according to claim 1, wherein the EMC filter and the DC link capacitor are integrated into a single circuit.

4. The electrical component according to claim 1, wherein the input port is configured for connecting the electrical component to a DC input, and wherein the output port is configured for connecting the electrical component to an inverter semiconductor bridge.

5. The electrical component according to claim 1, wherein the electrical component is configured to receive a direct current at the input port and to provide a direct current at the output port.

6. The electrical component according to claim 1, wherein the second filter stage is configured to avoid noise migration to the DC link capacitor, or wherein the second filter stage includes at least one of a magnetic element operating as inductor or a snubber capacitor.

7. The electrical component according to claim 6, wherein the magnetic element comprises a Manganese-zinc ferrite core or a nickel-zinc ferrite core or a nanocrystalline tape core.

8. The electrical component according to claim 1, wherein the second filter stage includes a snubber capacitor, wherein the snubber capacitor is a film capacitor which comprises a plastic film, or wherein the snubber capacitor is a ceramic capacitor, or wherein the snubber capacitor is an aluminum electrolytic capacitor.

9. The electrical component according to claim 1, wherein the second filter stage comprises at least one Y capacitor connected between a signal line and a reference potential.

10. The electrical component according to claim 9, wherein the at least one Y capacitor is a film capacitor that comprises a plastic film, or wherein the at least one Y capacitor is a ceramic capacitor, or wherein the at least one Y capacitor is an aluminum electrolytic capacitor.

11. The electrical component according to claim 1, wherein the first filter stage comprises at least one Y capacitor connected between a signal line and a reference potential, or a magnetic element operating as inductor.

12. The electrical component according to claim 11, wherein the first filter stage comprises the x-capacitor, wherein the x-capacitor is a film capacitor which comprises a plastic film, or wherein the x-capacitor is a ceramic capacitor, or wherein the x-capacitor is an aluminum electrolytic capacitor.

13. The electrical component according to claim 1, wherein the first filter stage comprises a magnetic element operating as an inductor, wherein the magnetic element of the first filter stage comprises a Manganese-zinc ferrite core or a nanocrystalline tape core.

14. The electrical component according to claim 1, wherein the DC link capacitor is configured to provide capacitive noise suppression.

15. The electrical component according to claim 1, wherein the electrical component comprises at least one of a temperature sensor, a current sensor, a humidity sensor, a pressure sensor, a gas sensor, a functional component, or a module for transferring data.

16. The electrical component according to claim 1, wherein the DC link capacitor is a film capacitor which comprises a plastic film, or wherein the DC link capacitor is a ceramic capacitor, or wherein the DC link capacitor is an aluminum electrolytic capacitor.

17. A power inverter circuit comprising an electrical component according to claim 1 and an inverter semiconductor bridge, wherein the output port of the electrical component is connected to the inverter semiconductor bridge.

18. A method for manufacturing an electronic component according to claim 1, comprising the steps of: a. manufacturing functional DC link capacitor units, b. connecting the functional DC link capacitor units to a busbar, c. manufacturing an EMC filter or filter sub-units which comprises a first filter stage and a second filter stage, d. assembling the functional DC link capacitor units connected to the busbar and the EMC filter or the filter sub-units in a housing, wherein step c. is performed either before step a., or before step b. or before step d.

19. The method according to claim 18, wherein, in step d., a sensor and/or a functional component is assembled in the housing.

20. An electrical component comprising, a DC link capacitor and an EMC filter, wherein the electrical component comprises an input port and an output port, wherein the EMC filter comprises a first filter stage and a second filter stage, wherein the first filter stage is arranged between the input port and the DC link capacitor and the second filter stage is arranged between the output port and the DC link capacitor, wherein the first filter stage comprises at least one Y capacitor connected between a signal line and a reference potential, wherein the second filter stage comprises a snubber capacitor, and wherein the snubber capacitor has a capacitance that is less than a tenth of a capacitance of the DC link capacitor.